教授风采
汪小帆
发表时间:2014-01-03 阅读次数:1060次

研究方向:复杂动态网络分析与控制
办公地址:电信群楼 2-311   
办公电话:021-34205322 , 54747511
电子邮箱:xfwang@sjtu.edu.cn
 
 
 
教育经历
1982.07-1986.07苏州大学数学系 本科
1988.09-1991.07 南京师范大学数学系计算数学专业 硕士研究生
1993.10-1996.10 东南大学自动化所控制理论与控制工程专业 博士研究生
 
工作经历
1996.10-1999.08 南京理工大学自动化系博士后、副教授
1999.08-2000.08 香港城市大学电子工程系 助理研究员
2000.08-2001.12 英国Bristol大学机械工程系 博士后研究员
2002.01至今 上海交通大学电子信息与电气工程学院教授、博导
2004.10-2011.4 上海交通大学电子信息与电气工程学院副院长
2008年 受聘为教育部长江学者特聘教授
2010.01 至今 上海交通大学致远学院常务副院长
 
科研项目
复杂动态网络分析与控制
 
科研成果
Books
[1] Housheng Su, Xiaofan Wang, Pinning Control of Complex Networked Systems, Springer & SJTU Press, 2013
[2] 汪小帆、李翔、陈关荣,网络科学导论,高等教育出版社,2012
(Xiaofan Wang, Xiang Li, Guanrong Chen, Network Science: An Introduction, Higher Education Press, 2012)
[3] Guanrong Chen, Xiaofan Wang, Xiang Li, Introduction to Complex Networks: Models, Structure and Dynamics, Higher Education Press, 2012
[4] 汪小帆、李翔、陈关荣,复杂网络理论及其应用,清华大学出版社,2006
(Xiaofan Wang, Xiang Li, Guanrong Chen, Complex Network Theory: Theory & Application, Qinghua University Press, 2006)
[5] 陈关荣,汪小帆,动力系统的混沌化,上海交通大学出版社,2006  
(Guanrong Chen & Xiaofan Wang, Chaotification of Dynamical Systems, SJTU Press, 2006) 
Journal Papers
[1] Xiao Fan Wang & Zhi Quan Wang (1998). A Global Synchronization Theorem for a Class of Chaotic Systems. International Journal of Bifurcation & Chaos, 8(6): 1363-1369.
[2] Xiao Fan Wang & Zhi Quan Wang (1998). Synchronization of Chua’s Circuits with the Third State as the Driving Signal. International Journal of Bifurcation & Chaos, 8(7): 1599-1603.
[3] Xiao Fan Wang & Zhi Quan Wang (1998). Synchronizing Chaos or Hyperchaos with any Scalar Transmitted Signal. IEEE Trans. Circuits & Systems-I, 45(10): 1101-1103.
[4] Xiao Fan Wang, Zhi Quan Wang & Guanrong Chen (1999). A new criterion for synchronization in coupled chaotic oscillators with application to Chua’s circuits. International Journal of Bifurcation & Chaos, 9(6): 1169-1174.
[5] Xiao Fan Wang & Guanrong Chen (1999). On feedback anticontrol of discrete chaos. International Journal of Bifurcation & Chaos, 9(7): 1435-1441.
[6] Xiao Fan Wang & Guanrong Chen (2000). Chaotification via arbitrarily small feedback controls: Theory, Methods and Applications. International Journal of Bifurcation & Chaos, 10(3): 549-570.
[7] Xiao Fan Wang & Guanrong Chen (2000). Chaotifying a Stable Linear System via Tiny Feedback Control. IEEE Trans. Circuits & Systems-I, 47(3): 410-415.
[8] Xiao Fan Wang & Guanrong Chen (2000). Chaotifying a stable map via smooth small-amplitude high-frequency feedback control. Int. J. Circuit Theory & Application, 28(3): 305-312.
[9] Xiao Fan Wang, Guanrong Chen & Xinghuo Yu (2000). Anticontrol of chaos in continuous-time systems via time-delay feedback. Chaos, 10(4): 771-779.
[10] Xiao Fan Wang, Guanrong Chen & K. F. Man (2001). Making a continuous-time minimum-phase system chaotic by using time-delay feedback. IEEE Trans. Circuits & Systems-I, 48(5): 641-645.
[11] Xiao Fan Wang, G-Q Zhong, K-S Tang, K. F. Man & Z-F Liu (2001). Generating chaos in Chua’s circuit via time-delay feedback. IEEE Trans. Circuits & Systems-I, 48(9): 1151-1156.
[12] Junguo Lu, Rong Wei, Xiaofan Wang & Zhiquan Wang. Backstepping control of discrete-time chaotic systems with application to the Henon system. IEEE Trans. Circuits & Systems-I, 2001, 48(11): 1359-1363.
[13] Xiao Fan Wang & Guanrong Chen (2002). Synchronization in scale-free dynamical networks: robustness and fragility. IEEE Trans. Circuits & Systems-I, 49(1): 54-62.
[14] Xiao Fan Wang, Guanrong Chen & K-T Ko (2002). A stability theorem for Internet congestion control. Systems & Control Letters, 45(2): 81-85.
[15] Xiao Fan Wang & Guanrong Chen (2002). Synchronization in small-world dynamical networks. International Journal of Bifurcation & Chaos, 12(1): 187-192.
[16] Xiao Fan Wang (2002). Complex networks: topology, dynamics and synchronization. International Journal of Bifurcation & Chaos, 12(5): 885-916.
[17] Xiao Fan Wang (2002). Slower speed and stronger coupling: Adaptive mechanisms of chaos synchronization. Physical Review E, 65 (6): 067202.
[18] Xiao Fan Wang & Guanrong Chen (2002). Pinning control of scale-free dynamical networks. Physica A, 310, 521-531.
[19] Xiao Fan Wang & Zhi Quan Wang (2003). A robust demodulation approach to communications using chaotic signals. International Journal of Bifurcation & Chaos, 13(1): 227-231.
[20] Xiao Fan Wang (2003). On the equivalence of chaos control systems. Chaos Solitons & Fractals, 15 (2): 265-269.
[21] Xiao Fan Wang et al. (2003). Bifurcation tailoring via Newton flow-aided adaptive control. International Journal of Bifurcation & Chaos, 13(3): 677-684.
[22] Xiao Fan Wang & Guanrong Chen (2003). Generating topologically conjugate chaotic systems via feedback control. IEEE Transactions on Circuits & Systems I, 50(6): 812-817.
[23] Xiao Fan Wang (2003). Generating chaos in continuous-time systems via feedback control. LECTURE NOTES IN CONTROL AND INFORMATION SCIENCES 292: 179-204
[24] Xiao Fan Wang & Jian Xu (2004). Cascading failures in coupled map lattices, Physical Review E, 70: 056113
[25] Kai Jiang, Xiao Fan Wang & Yugeng Xi (2004). Nonlinear analysis of RED - a comparative study. Chaos, Solitons and Fractals, 21(5):1153-1162.
[26] Xiang Li, Xiao Fan Wang & Guanrong Chen (2004), Pinning a complex dynamical network to its equilibrium. IEEE Transactions on Circuits and Systems I, 51(10): 2074-2087.
[27] Liang Chen, Xiao Fan Wang & Zhengzhi Han (2004), Controlling bifurcation and chaos in Internet congestion control model. International Journal of Bifurcation & Chaos, 14(5): 1863-1876.
[28] Liang Chen, Xiao Fan Wang & Zhengzhi Han (2004), Controlling chaos in Internet congestion control model. Chaos, Solitons and Fractals, 21(1): 81-91.
[29] Kai Jiang, Xiao Fan Wang & Yugeng Xi (2004). Controlling Internet congestion with time-delayed state feedback. Dynamics of Continuous, Discrete and Impulsive Systems-B, 11: 128-135.
[30] Jian Xu & Xiao Fan Wang (2005). Cascading failures in scale-free coupled map lattices, Physica A, 349: 685-692
[31] Jin Fan & Xiao Fan Wang (2005). On synchronization in scale-free dynamical networks. Physica A, 349: 443-451
[32] Jin Fan & Xiao Fan Wang (2005). A wavelet view of small-world networks. IEEE Transactions on Circuits & Systems II 52 (5): 238-241
[33] Jin Fan, Xiang Li& Xiao Fan Wang (2005). On synchronous preference of complex dynamical networks. Physica A, 355(2-4): 657-666
[34] Zhenyi Chen & Xiao Fan Wang (2006). Effects of network structure and routing strategy on network capacity. Physical Review E, 73(3): 036107
[35] Xiang Li & Xiao Fan Wang (2006). Controlling the spreading in small-world evolving networks: Stability, oscillation, and topology. IEEE Transactions On Automatic Control, 51 (3): 534-540
[36] Lihui Shang, Xiao Fan Wang (2006). A modified evolutionary minority game with local imitation. Physica A, 361 (2): 643-650
[37] Lihui Shang, Xiao Fan Wang (2006). A modified evolutionary minority game with interactions. Dynamics of Continuous, Discrete and Impulsive Systems-A 13(3): 1390-1397
[38] Zhenyi Chen & Xiao Fan Wang (2006). A congestion awareness routing strategy for scale-free networks with tunable clustering. Physica A 364: 595-602
[39] Zhenyi Chen & Xiao Fan Wang (2006). Effects of network structure and routing strategy on network capacity. Physical Review E, 73(3): 036107
[40] Zhaofeng Pan, Xiang Li, Xiaofan Wang (2006). Generalized local-world models for weighted networks. Physical Review E, 73(5): 056109
[41] Wen Yang, Xiaofan Wang, Lang Cao (2006). Consensus in a heterogeneous influence network. Physical Review E, 74(3): 037101
[42] Wen Yang, Xiao Fan Wang (2006). Consensus filters on small world networks. Dynamics of Continuous, Discrete and Impulsive Systems-B 13(3-4): 379-386
[43] Xinbiao Lu, Xiang Li & Xiao Fan Wang (2006). Synchronization in triangled complex networks. Communications in Theoretical Physics 45(5): 955-960.
[44] Wei Li and Xiao Fan Wang (2007). Adaptive velocity strategy for swarm aggregation, Phys. Rev. E., 75(2): 021917.
[45] Weiping Guo, Xiang Li, Xiaofan Wang (2007). Epidemics and immunization on Euclidean distance preferred small-world networks, Physica A, 380: 684-690.
[46] Zou Xie, Xiang Li, Xiaofan Wang (2007). A new community based evolving network model, Physica A, 384(2), 725-732.
[47] Zhihai Rong, Xiang Li, Xiaofan Wang (2007). Roles of mixing patterns to cooperation on scale-free networked game. Physical Review E, 76: 027101
[48] Hou Sheng Su, Wen Yang & Xiao Fan Wang (2008), Flocking in Multi-Agents Systems with Multiple Virtual Leaders. Asian Journal of control, 10(2): 238-245
[49] You You Lu and Xiao Fan Wang (2008). Pinning control of directed dynamical networks based on ControlRank. Int. J. Computer Mathematics, 85(8): 1279-1286.
[50] Kun Dai, Xiao Fan Wang and Xiang Li (2008), Two novel methods to enhance the network synchronizability, Communications in Theoretical Physics, 49(4): 1064-1068.
[51] Zhou Xie, Xiang Li, Xiaofan Wang (2008), Weighted evolving networks with self-organizing communities, Communications in Theoeretical Physics, 50(1), 261-266.
[52] Hai-Bo Hu, Xiao-Fan Wang (2008). Unified index to quantifying heterogeneity of complex networks. Physica A 387, 3769-3780
[53] Haibo Hu, Xiaofan Wang (2009). Disassortative mixing in online social networks. Europhysics Letters, 86, 18003
[54] Haibo Hu, Xiaofan Wang (2009). Evolution of a large online social network. Physics Letters A, 373: 1105-1110.
[55] Haibo Hu, Xiaofan Wang (2009). Discrete opinion dynamics on networks based on social influence. Journal of Physics A, 42(22): 225005.
[56] Housheng Su, Xiaofan Wang & Zongli Lin (2009). Flocking of multi-agents with a virtual leader, IEEE Transactions on Automatic Control, 54(2): 293-307.
[57] Housheng Su, Xiaofan Wang & Zongli Lin (2009), Synchronization of Coupled Harmonic Oscillators in a Dynamic Proximity Network, Automatica, 45(10): 2286-2291
[58] Housheng Su, Xiaofan Wang & Guanrong Chen(2009), A connectivity-preserving flocking algorithm for multi-agent systems based only on position measurements, International Journal of Control, 82(7): 1334-1343.
[59] Haibo Hu, Dingyi Han, Xiaofan Wang (2010). Individual popularity and activity in online social systems. Physica A, 389(5): 1065-1070.
[60] Housheng Su, Xiaofan Wang, G Chen (2010). Rendezvous of Multiple Mobile Agents with Preserved Network Connectivity. Systems & Control Letters, 59: 313-322
[61] Haibo Hu, Dingyi Han, Xiaofan Wang (2010). Individual popularity and activity in online social systems, Physica A, 389: 1065-1070
[62] Xiaofan Wang, Xiang Li, Jinhu Lv (2010). Control and flocking of networking systems via pinning, IEEE Circuits and Systems Magazine,10 (6): 83-91
[63] Qing Song, Xiaofan Wang (2011). Efficient routing on large road networks using hierarchical communities, IEEE Transactions on Intelligent Transportation Systems, 12(1): 132-140
[64] Housheng Su, Xiaofan Wang, Guanrong Chen & Zongli Lin (2011). Adaptive second-order consensus of networked mobile agents with nonlinear dynamics, Automatica, 47 (2) : 368-375
[65] Lin Wang, Xiaofan Wang (2011). New conditions for synchronization in dynamical communication networks, Systems & Control Letters, 60, 219-225.
[66] Wen Yang, Xiaofan Wang, Hongbo Shi (2011). Optimal consensus based distributed estimation with intermittent communication, Int. J. of Systems Science, 42(9): 1521-1529
[67] Housheng Su, Zhihai Rong, Michael Z. Q. Chen, Xiaofan Wang, Guanrong Chen, Hongwei Wang (2013). Decentralized adaptive pinning control for cluster synchronization of complex dynamical networks, IEEE Trans. Systems, Man & Cybernetics-B, 43(1): 394-399
[68] Lin Wang, Xiaofan Wang, Xiaoming Hu (2013). Connectivity preserving flocking without velocity measurement, Asian Journal of Control, 15(3): 1-12
[69] Housheng Su, Ningzi Zhang, Michael Zhiqiang Chen, Hongwei Wang, Xiaofan Wang (2013). Adaptive flocking with a virtual leader of multiple agents governed by locally Lipschitz nonlinearity, Nonlinear Analysis-B, 14(1): 98-806.
[70] Wen Yang, Xiaofan Wang, Hongbo Shi (2013). Fast consensus seeking in multi-agent systems with time delay, Systems & Control Letters, 62 (3): 269–276
[71] Dequan Li, Qipeng Liu, Xiaofan Wang, Zongli Lin (2013). Consensus seeking over directed networks with limited information communication. Automatica, 49(2): 610-618
[72] Haili Liang, Yiping Yang, Xiaofan Wang (2013). Opinion dynamics in networks with heterogeneous confidence and influence, Physica A, In Press, Available online 9 January 2013.
[73] Qipeng Liu, Xiaofan Wang (2013). Social learning with bounded confidence and heterogeneous agents, Physica A, In Press, Available online 9 January 2013.
[74] Lidong He, Xiaofan Wang, Ling Shi (2013). Optimal linear state estimation over a packet-dropping network using linear temporal coding, Automatica, In Press, Corrected Proof
 
获奖
2002年 获得国家杰出青年科学基金
2005年 获得IEEE电路与系统汇刊最佳论文奖
2007年 入选国家人事部“新世纪百千万人才工程国家队人选”
2007年 上海市优秀学科带头人计划
2008年 获得上海市自然科学一等奖
2008年 受聘为教育部长江学者特聘教授
2008年 教育部创新团队带头人
2010年 获得上海市自然科学牡丹奖,享受政府特殊津贴
 
教授课程
硕士生学位课:《线性系统理论》
全校研究生公共课:《网络科学导论》
新生研讨课:《探索复杂网络》